Electronic device provided with an integral conductive wire and method of manufacture

ABSTRACT

An electronic device includes a supporting substrate having a front mounting face and an electrical connection network. An integrated circuit chip is mounted to the mounting face and is electrically connected to the electrical connection network. A primary encapsulation block embeds the integrated circuit chip and extends above and around the integrated circuit chip on the mounting face of the supporting substrate. An opening is provided in the primary encapsulation block to at least partially uncover an electrical contact. An additional wire made from an electrically conductive material has an end that is electrically connected to the electrical contact. An additional encapsulation block above the primary encapsulation block embeds the additional wire.

PRIORITY CLAIM

This application claims priority from French Application for Patent No. 1559251 filed Sep. 30, 2015, the disclosure of which is incorporated by reference.

TECHNICAL FIELD

The present invention concerns the field of electronic devices.

BACKGROUND

Known electronic devices, generally of parallelepiped shape, include a supporting substrate, including an electrical connection network, an integrated circuit chip mounted on one of the faces of the supporting substrate and an encapsulation block in which the chip is embedded. The chip is connected to the network of the supporting substrate by electrical connection elements such as balls, disposed between the supporting substrate and the chip, or by electrical connection wires embedded in the encapsulation block.

Such electronic devices are mounted on printed circuit boards, generally via electrical connection elements such as balls, connecting the electrical connection network of the supporting substrates and the electrical connection network of the printed circuit boards.

When the chips generate radio signals that have to be transmitted or process received radio signals, the sending or receiving antennas are produced on the printed circuit boards. The electrical signals follow very long resistive paths that consist of lines of the electrical connection network of the printed circuit boards, the electrical connection elements between the printed circuit boards and the supporting substrates, lines of the electrical connection network of the supporting substrates and the electrical connection elements between the supporting substrates. Such paths also depend on the quality of the interconnections resulting from the process of manufacture.

The above arrangements constitute a handicap, notably when the necessary size of the antennas for the transmission of radio signals at frequencies of the order of 1 GHz and above, and even very much higher than 1 GHz, is small.

SUMMARY

There is proposed an electronic device including a supporting substrate having a front mounting face and including an electrical connection network and at least one integrated circuit chip mounted on said mounting face of the supporting substrate and electrically connected to said electrical connection network.

The device also includes an encapsulation block including a primary encapsulation block in which the chip is embedded and which extends above and around the chip on said mounting face of the supporting substrate, and an additional encapsulation block above the primary block.

The device further includes at least one additional wire made from an electrically conductive material embedded in said additional encapsulation block, this additional conductive wire being electrically connected to said chip and/or to said electrical connection network.

At least one of the ends of the additional conductive wire may be connected to at least one electrical contact on said mounting face of said supporting substrate at a distance from the periphery of the chip.

At least one of the ends of the additional conductive wire may be connected to at least one electrical contact on a front face of said chip.

The device may include a pillar above an electrical contact on said mounting face of said supporting substrate, through said primary encapsulation block, one end of said additional conductive wire being fixed to this pillar.

The device may include a pillar above an electrical contact on a front face of said chip, through said primary encapsulation block, one end of said additional conductive wire being fixed to this pillar.

One of the ends of said additional wire may be fixed to said primary encapsulation block.

Said additional conductive wire may constitute a radio antenna or an electrical connection.

There is also proposed a method of manufacturing an electronic device in which there are procured a primary electronic device including a supporting substrate, an integrated circuit chip mounted on a front mounting face of the supporting substrate and a primary encapsulation block extending above and around the chip on said mounting face of the supporting substrate, the encapsulation block having a front face parallel to the supporting substrate.

The method includes producing at least one hole said through primary encapsulation block of the primary electronic device, from its front face, until there is at least partly uncovered an electrical contact of said mounting face of said supporting substrate and/or a front face of the chip; installing at least one additional electrically conductive wire above the primary encapsulation block and in a position such that one of the ends of this additional wire is connected to said electrical contact; and producing an additional encapsulation block on said primary encapsulation block of said primary electronic device, the additional conductive wire being embedded in this additional encapsulation block.

The method may include: producing in said hole a pillar made of an electrically conductive material; and fixing one end of the additional conductive wire to this pillar.

The method may include: fixing at least one of the ends of the additional conductive wire directly above said electrical contact.

The method may include: fixing one of the ends of the additional conductive wire to said primary encapsulation block.

BRIEF DESCRIPTION OF THE DRAWINGS

Electronic devices and their method of manufacture will now be described by way of embodiments illustrated by the drawing, in which:

FIG. 1 represents a section of an electronic device;

FIG. 2 represents a top view of the electronic device from FIG. 1;

FIG. 3 represents in section a step in the manufacture of the electronic device from FIG. 1;

FIG. 4 represents in section another step in the manufacture of the electronic device from FIG. 1;

FIG. 5 represents in section another step in the manufacture of the electronic device from FIG. 1;

FIG. 6 represents in section another step in the manufacture of the electronic device from FIG. 1;

FIG. 7 represents in section another step in the manufacture of the electronic device from FIG. 1;

FIG. 8 represents a section of another electronic device;

FIG. 9 represents a section of another electronic device; and

FIG. 10 represents a section of another electronic device.

DETAILED DESCRIPTION

As shown in FIGS. 1 and 2, in accordance with one embodiment, a final electronic device 1 includes a supporting substrate 2 including an integrated electrical connection network 3, an integrated circuit chip 4 mounted on a front mounting face 5 of the supporting substrate 2 and a final encapsulation block 6 that extends over and around the chip 4 on the mounting face 5 of the supporting substrate 2 so that the electronic device 1 takes the form of a parallelepiped.

In accordance with one variant embodiment represented, the integrated circuit chip 4 is mounted on the mounting face 5 of the supporting substrate 2 by means of electrical connection elements 7, such as balls, that selectively connect the chip 4 and the electrical connection network 3. In accordance with another variant embodiment, the chip 4 could be glued to the mounting face 5 of the supporting substrate 2 and connected to the electrical connection network 3 by electrical connection wires embedded in the encapsulation block 6.

The encapsulation block 6 includes a primary encapsulation block 8 in which the chip 4 is embedded and which extends over and around the chip 4 on the mounting face 5 of the supporting substrate 2 so as to have a front face 9 parallel to the supporting substrate 2.

The primary encapsulation block 8 has holes 10 and 11 extending through it from the front face 9, arranged over front electrical contacts 12 and 13 of the network 3, arranged on the front face 5 of the supporting substrate 2, at a distance from the chip 4. The through-holes 10 and 11 are arranged on either side of the chip 4, for example.

The through-holes 10 and 11 contain metal electrical connection pillars 14 and 15 formed on the electrical contacts 12 and 13 and having front faces 16 and 17.

The final encapsulation block 6 includes an additional encapsulation block 18 on top of the primary encapsulation block 8, covering the front face 9 of the primary encapsulation block 8 and the front faces 16 and 17 of the conductive pillars 14 and 15, this additional encapsulation block 18 having a front face 19 parallel to the substrate board.

The final electronic device 1 further includes an integrated additional electrical wire 20 that is embedded in the additional encapsulation block 18 and has ends 21 and 22 fixed by soldering them to the front faces 16 and 17 of the pillars 14 and 15, respectively. The electrical wire 20 extends between and at a distance from the interface 9 and the front face 19 of the final encapsulation block 6.

The electronic device 1 may be provided with exterior electrical connection elements 23, such as balls, disposed on electrical contacts 24 of the electrical connection network 3 arranged on a rear face 25 of the supporting substrate 2, opposite the mounting face 5.

The electronic device 1 may be manufactured in the following manner, using the usual means employed in microelectronics.

As shown in FIG. 3, a prefabricated primary electronic device 26 is procured that includes the supporting substrate 2 provided with the integrated connection network 3, the chip 4, the connection elements 7 and the primary encapsulation block 8.

As shown in FIG. 4, the holes 10 and 11 are made through the primary encapsulation block 8 so as to uncover the front electrical contacts 12 and 13.

As shown in FIG. 5, the pillars 14 and 15 are produced in the holes 10 and 11, for example by growing a metal deposit. The height of the pillars 14 and 15 may be less than, equal to or greater than the depth of the holes 10 and 11.

As shown in FIG. 6, the electrical wire 20 is placed on top of the primary encapsulation block 8 with its ends soldered to the front surfaces 16 and 17 of the pillars 14 and 15. A standard wire bonding machine may be used for this. It is necessary for the hardness of the pillars 14 and 15 to be compatible with receiving the ends of the electrical wire 20 soldered to the front surfaces 16 and 17. The diameter of the electrical wire 20 may be between 15 and 50 microns, for example. The electrical wire 20 may be made of gold or of an alloy based on silver, copper or aluminum.

As shown in FIG. 7, the additional encapsulation block 18 is produced on top of the primary encapsulation block 8 so as to embed the electrical wire 20.

The exterior electrical connection elements 23 are fitted.

The electronic device 1 shown in FIG. 1 is finally obtained.

As shown in FIG. 2, the electronic device 1 may include a plurality of electrical wires 20 embedded in the additional block 18, and for example parallel, connected to corresponding pillars 14 and 15 arranged on corresponding electrical contacts 12 and 13 passing through the primary encapsulation block 8. The various holes and the various pillars may be produced and the placing of the electrical wires may be carried out simultaneously during successive operations as described with reference to FIGS. 3 to 7.

In accordance with another embodiment shown in FIG. 8, an electronic device 27 differs from the electronic device 1 only in that the electrical connection pillars 14 and 15 exist. This time, the end portions of the electrical wire 20 are engaged in the through-holes 10 and 11 and the ends of the electrical wire 2 are fixed directly to the electrical contacts 12 and 13. Moreover, the additional encapsulation block 18 fills the through-holes 10 and 11.

Consequently, to produce the electronic device 27 the step described with reference to FIG. 7 is omitted. The electrical wire 20 is mounted directly after producing the holes 10 and 11. It is necessary for the holes 10 and 11 and the head of the wire bonding machine that places the electrical wire 20 have reciprocal dimensions adapted for this placement.

In accordance with another embodiment shown in FIG. 9, an electronic device 28 differs from the electronic device 1 in that the electronic connection pillar 15 is produced on top of a specific electrical contact 29 of the front face 30 of the chip 4, in a through-hole 11 situated above this chip 4. The specific electrical contact 29 may be the result of forming an electrical connection through the substrate of the integrated circuit chip 4 known as a TSV (Through Silicon Via).

In accordance with another embodiment, the ends of the electrical wire 20 could be connected to respective pillars produced on two electrical contacts on the front face 30 of the chip 4.

As in the FIG. 8 example, in these examples described with reference to FIG. 9, the pillars could be omitted.

In accordance with another embodiment shown in FIG. 10, an electronic device 31 differs from the electronic device 1 in that the end 21 of the additional conductive wire 20 is not fixed to a pillar but is fixed to the front face 9 of the primary encapsulation block 8 by means of a drop 32 of glue embedded in the additional encapsulation block 18 so that this end 21 of the additional conductive wire 20 is electrically floating. This arrangement could also constitute a variant embodiment of the electronic device 28 described with reference to FIG. 9.

The electronic devices that have just been described may be manufactured collectively on a common supporting wafer, as known in the field of microelectronics. The primary and additional encapsulation blocks may be obtained by spreading a liquid material, for example an epoxy resin, and then hardening that material.

In accordance with one application example, the electrical wire 20 may constitute a radio antenna for transmitting/receiving radio signals at very high frequencies (of the order of 1 GHz or above, or even very much higher than 1 GHz), connected to the chip 4 by short electrical connection paths via the electrical connection network of the supporting substrate 2.

In accordance with another application example, one of the electrical contacts may not be connected to an electrical component and therefore be electrically floating.

In accordance with another application example, the electrical wire 20 may constitute a specific electrical connection of the circuits of the chip 4, either directly or via the electrical connection network 3 or a specific exterior electrical connection of the chip 4 via the electrical connection network. 

The invention claimed is:
 1. An electronic device, comprising: a supporting substrate having a mounting face and including an electrical connection network, an integrated circuit chip mounted on said mounting face of the supporting substrate and electrically connected to said electrical connection network, an encapsulation block including a primary encapsulation block in which the integrated circuit chip is embedded and which extends above and around the integrated circuit chip on said mounting face of the supporting substrate and an additional encapsulation block above the primary encapsulation block; and a wire made from an electrically conductive material, the wire being self-supportable above the integrated circuit chip and the primary encapsulation block and embedded in said additional encapsulation block, said wire being electrically connected to at least one of said integrated circuit chip and said electrical connection network.
 2. The device according to claim 1, wherein one end of the wire is connected to an electrical contact on said mounting face of said supporting substrate at a distance from the periphery of the integrated circuit chip.
 3. The device according to claim 1, wherein one end of the wire is connected to at least one electrical contact on a front face of said integrated circuit chip.
 4. The device according to claim 1, further including a pillar above an electrical contact on said mounting face of said supporting substrate, said pillar extending through said primary encapsulation block, wherein one end of the wire is fixed to said pillar.
 5. The device according to claim 1, wherein one end of said wire is fixed to an upper surface of the primary encapsulation block.
 6. The device according to claim 1, wherein said wire is a radio antenna.
 7. The device according to claim 1, wherein said wire is an electrical connection.
 8. The device according to claim 1, wherein the wire is a bonding wire.
 9. An electronic device, comprising: a supporting substrate having a mounting face and including an electrical connection network, an integrated circuit chip mounted on said mounting face of the supporting substrate and electrically connected to said electrical connection network, an encapsulation block including a primary encapsulation block in which the integrated circuit chip is embedded and which extends above and around the integrated circuit chip on said mounting face of the supporting substrate and an additional encapsulation block above the primary encapsulation block; and a wire made from an electrically conductive material embedded in said additional encapsulation block, said wire being electrically connected to at least one of said integrated circuit chip and said electrical connection network; and a pillar above an electrical contact on a front face of said integrated circuit chip, said pillar extending through said primary encapsulation block, wherein one end of said wire is fixed to this pillar.
 10. The device according to claim 9, wherein one end of the wire is connected to an electrical contact on said mounting face of said supporting substrate at a distance from the periphery of the integrated circuit chip.
 11. The device according to claim 9, wherein one end of the wire is connected to at least one electrical contact on a front face of said integrated circuit chip.
 12. The device according to claim 9, further including a pillar above an electrical contact on said mounting face of said supporting substrate, said pillar extending through said primary encapsulation block, wherein one end of the wire is fixed to said pillar.
 13. An electronic device, comprising: a primary encapsulation block embedding integrated circuit chip, said primary encapsulation block including an opening that at least partially uncovers an electrical contact; an electrically conductive wire self-supportable above the integrated circuit chip and the primary encapsulation block and positioned such that one end of the electrically conductive wire is electrically connected to said electrical contact; and an additional encapsulation block on said primary encapsulation block, the additional encapsulation block embedding the electrically conductive wire.
 14. The device of claim 13, further comprising a conductive pillar filling said opening, the one end of the electrically conductive wire making contact with said conductive pillar.
 15. The device of claim 13, wherein said electrical contact is a contact on the integrated circuit chip.
 16. The device of claim 13, wherein said electrical contact is a contact on a support substrate, said integrated circuit chip mounted to said support substrate.
 17. The device of claim 13, wherein said electrically conductive wire is an antenna.
 18. An electronic device, comprising: a primary encapsulation block embedding integrated circuit chip, said primary encapsulation block including an opening that at least partially uncovers an electrical contact; an electrically conductive wire above the primary encapsulation block and positioned such that one end of the electrically conductive wire is electrically connected to said electrical contact; and an additional encapsulation block on said primary encapsulation block, the additional encapsulation block embedding the electrically conductive wire, wherein material of said additional encapsulation block fills said opening, the one end of the electrically conductive wire extending into said opening.
 19. The device of claim 18, further comprising a conductive pillar filling said opening, the one end of the electrically conductive wire making contact with said conductive pillar.
 20. The device of claim 18, wherein said electrical contact is a contact on the integrated circuit chip.
 21. The device of claim 18, wherein said electrical contact is a contact on a support substrate, said integrated circuit chip mounted to said support substrate.
 22. An electronic device, comprising: a supporting substrate having a mounting face and including an electrical connection network; an integrated circuit chip having a surface including a plurality of electrical connection elements, said integrated circuit chip mounted to the supporting substrate with said surface facing the mounting face and said electrical connection elements connected to said electrical connection network; a primary encapsulation block in which the integrated circuit chip is embedded and which extends above and around the integrated circuit chip on said mounting face of the supporting substrate; a wire made from an electrically conductive material and having a curved shape in a plane perpendicular to the mounting face, wherein at least one end of said wire is electrically coupled to the electrical connection network; and an additional encapsulation block above the primary encapsulation block and within which the wire is embedded.
 23. The device of claim 22, wherein said primary encapsulation block includes an opening and said at least one end of said wire passes through said opening to make physical and electrical contact with the electrical connection network.
 24. The device of claim 23, wherein said additional encapsulation block further fills said opening.
 25. The device of claim 22, wherein said primary encapsulation block includes an opening and further including a pillar of electrically conductive material filling said opening and said at least one end of said wire is in physical and electrical contact with a top of said pillar.
 26. The device of claim 22, wherein said wire forms an antenna.
 27. An electronic device, comprising: a supporting substrate having a mounting face and including an electrical connection network; an integrated circuit chip having a first surface including a plurality of electrical connection elements and a second surface, opposite said first surface, including an electrical contact, said integrated circuit chip mounted to the supporting substrate with said first surface facing the mounting face and said electrical connection elements connected to said electrical connection network; a primary encapsulation block in which the integrated circuit chip is embedded and which extends above and around the integrated circuit chip on said mounting face of the supporting substrate; a wire made from an electrically conductive material and having a curved shape in a plane perpendicular to the mounting face, wherein at least one end of said wire is electrically coupled to the electrical contact; and an additional encapsulation block above the primary encapsulation block and within which the wire is embedded.
 28. The device of claim 27, wherein said primary encapsulation block includes an opening and further including a pillar of electrically conductive material filling said opening and said at least one end of said wire is in physical and electrical contact with a top of said pillar.
 29. The device of claim 27, wherein said wire forms an antenna. 